CN210165251U - Bury lamp inductively - Google Patents

Abstract

The utility model relates to a bury lamp with responding to relates to one kind and buries lamp technical field, has solved and has buried the lamp and need the user of service initiative to open when it uses, comparatively troublesome problem, it including the human detection device who is used for exporting human detection signal, be coupled in human detection device with receiving human detection signal and output control signal's controlling means, be coupled in controlling means with receiving control signal and respond to control signal in order to realize luminous interactive illuminator. The utility model discloses have and just in time can bury the lamp and realize interactive effect with opening when someone touches to bury the lamp with the response.

Description

Bury lamp inductively

Technical Field

The utility model belongs to the technical field of the lamp technique of burying with, especially, relate to a bury lamp with responding to.

Background

The buried lamp is widely applied in the field of scientific and technological illumination in China, and is named as buried lamp because the buried lamp is buried on the ground for people to illuminate, and the voltage is as follows: 12V-220V power: 1-36W protection rating: IP6.5 control mode: internal control, external control and DMX512 control can be realized; the lamp body is generally round, square, rectangular or arc, and the LED light source has seven colors and is bright and colorful.

The existing underground lamp needs to be actively turned on by a user when in use, is troublesome and has an improved space.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bury lamp with kind of response that the lamp realized interactive effect just can in time bury with opening when someone touches to bury the lamp with responding to.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

an induction underground lamp comprises a human body detection device for outputting a human body detection signal, a control device coupled to the human body detection device for receiving the human body detection signal and outputting a control signal, and an interactive light-emitting device coupled to the control device for receiving the control signal and responding to the control signal to realize light emission.

By adopting the technical scheme, whether people are above the human body detection device can be effectively detected through the human body detection device, and the interactive light-emitting device is started through the control device to interact with people to emit light interactively on the premise of judging that people are.

The utility model discloses further set up to: the induction underground lamp also comprises a sound generating device which is coupled with the control device to receive the control signal and responds to the control signal to realize sound generating prompt, and a time delay cutting device which is coupled with the control device to receive the control signal and responds to the control signal to cut off the sound generating device in a time delay way.

Through adopting above-mentioned technical scheme, can bury the luminous time of lamp through the form of sound production through sound generating mechanism, time delay cutting device's setting and inform people around to bury the lamp and begin luminous with sensing this moment in the people around understanding, can in time cut off the response through time delay cutting device and bury the lamp in addition after accomplishing the notice.

The utility model discloses further set up to: the sound generating device comprises a high-low frequency switching circuit and a sound generating circuit, wherein the high-low frequency switching circuit is coupled with the control device to receive the control signal and output a high-low frequency switching signal, and the sound generating circuit is coupled with the high-low frequency switching circuit to receive the high-low frequency switching signal and respond to the high-low frequency switching signal to realize sound generation.

Through adopting above-mentioned technical scheme, through high low frequency switching circuit, sound production circuit's cooperation setting, can realize high low frequency switching sound production, compare in general suggestion mode, have better suggestion effect.

The utility model discloses further set up to: the induction underground lamp further comprises a light detection device, a voltage comparison device, a driving device and a remote prompting device, wherein the light detection device is arranged in the induction underground lamp and is coupled to the control device to receive the control signal and output a light detection signal, the voltage comparison device is coupled to the light detection device to receive the light detection signal and output a voltage comparison signal, the driving device is coupled to the voltage comparison device to receive the voltage comparison signal and output a driving signal, and the remote prompting device is coupled to the driving device to receive the driving signal and responds to the driving signal to realize remote prompting.

Through adopting above-mentioned technical scheme, whether combination through bright detection device, voltage comparison device, drive arrangement sets up and to burying the lamp and normally lighting when someone responds to effectively detecting, buries the lamp when not lighting with appearing really moreover, can carry out timely remote suggestion through remote suggestion device.

The utility model discloses further set up to: the induction underground lamp also comprises an opening and closing device for opening and closing the brightness detection device.

Through adopting above-mentioned technical scheme, set up through headstock gear and made things convenient for the staff to select whether to open to light detection device.

The utility model discloses further set up to: the voltage comparison device comprises a voltage reference circuit for outputting a voltage reference signal and a voltage comparison circuit coupled to the light detection device for receiving the light detection signal, comparing the voltage reference signal with the light detection signal and outputting a voltage comparison signal.

By adopting the technical scheme, the brightness detection signal and the voltage reference signal can be effectively compared through the combination of the voltage reference circuit and the voltage comparison circuit, so that whether the induction underground lamp normally emits light or not can be effectively judged.

The utility model discloses further set up to: the sound production circuit is a loudspeaker.

By adopting the technical scheme, the cost can be reduced as much as possible on the premise of ensuring normal sound production because the sound production circuit is the loudspeaker.

The utility model discloses further set up to: the time delay cut-off device is a time relay.

By adopting the technical scheme, the time delay cut-off device is a time relay, so that the corresponding cost can be reduced on the premise of ensuring the time delay cut-off effect.

To sum up, the utility model discloses a beneficial technological effect does: whether someone stands above the induction buried lamp or not can be effectively judged by combining the arrangement of the human body detection device and the control device, and interaction can be effectively realized through the interactive light-emitting device on the premise that the person really stands is judged.

Drawings

Fig. 1 is a circuit connection diagram of a human body detection device, a control device and an interactive light-emitting device.

Fig. 2 is a circuit diagram of the sound generating device and the delay cut-off device.

Fig. 3 is a circuit connection diagram of the opening and closing device, the light detection device, the voltage comparison device, the driving device and the remote prompting device.

Fig. 4 is a circuit diagram of the capacitive sensor T when no one touches it.

Fig. 5 is a circuit diagram of the capacitive sensor T when a person touches it.

In the figure, 1, a human body detection device; 2. a control device; 3. an interactive light emitting device; 5. a sound producing device; 6. a time-delay cut-off device; 7. a high-low frequency switching circuit; 8. a sound producing circuit; 9. a light detection device; 10. a voltage comparison device; 11. a drive device; 12. a remote prompting device; 13. an opening and closing device; 14. a voltage reference circuit; 15. a voltage comparison circuit.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a bury lamp with response, including being used for exporting human detection signal's human detection device 1, coupling is in human detection device 1 in order to receive human detection signal and output control signal's controlling means 2, coupling is in controlling means 2 in order to receive control signal and respond to control signal in order to realize luminous interactive illuminator 3.

As shown in fig. 1, the human body detecting device 1 includes a capacitive sensor T, a resistor R5 having one end connected to the capacitive sensor T, a capacitor C1 having one end connected to ground and the other end connected to a resistor R5, a single-touch chip ASC0101 having a TCH end connected to a resistor R5 and a capacitor C1, wherein the HLD end, the VDD end, the OLD end and the GND end of the single-touch chip ASC0101 are all grounded, the OUT end of the single-touch chip ASC0101,

as shown in fig. 4 and 5, the capacitive sensor T is preferably of the TTP229 type, and its operation principle is shown in fig. 5, and its capacitance changes when touched by an outsider.

As shown in fig. 1, the controller 2 is a MOS transistor Q1 having a G terminal connected to the OUT terminal of the one-way touch chip ASC0101 and a D terminal connected to the power VCC, and the MOS transistor Q1 has a model number of 2301.

As shown in fig. 2, the induction buried lamp further includes a sound generating device 5 coupled to the control device 2 for receiving the control signal and responding to the control signal to generate a sound prompt, and a time delay cut-off device 6 coupled to the control device 2 for receiving the control signal and responding to the control signal to cut off the sound generating device 5 in a time delay manner.

The sound generating device 5 includes a high-low frequency switching circuit 7 coupled to the control device 2 for receiving the control signal and outputting a high-low frequency switching signal, and a sound generating circuit 8 coupled to the high-low frequency switching circuit 7 for receiving the high-low frequency switching signal and responding to the high-low frequency switching signal to generate sound.

The high-low frequency switching circuit 7 comprises an audio signal generator with one end connected to the switch KT7-1, a switch KT6-2 with one end connected to the audio signal generator, a time relay KT5 with one end connected to the switch KT6-2, a switch KT5-1 and a switch KT5-3 with one end connected to the connection point of the time relay KT5 and the switch KT6-2, a switch KT6-1 with one end connected to the switch KT5-3, and a time relay KT6 with one end connected to the time relay KT5 and the other end connected to the switch KT 5-2.

The sounding circuit 8 comprises an inductor L1 with one end connected to a switch KT5-1, a capacitor C3 with one end connected to an inductor L1, a loudspeaker BL1 connected to two ends of the capacitor C3 in parallel, a capacitor C3 with one end connected to a switch KT6-1, an inductor L2 with one end connected to the capacitor C3, and a loudspeaker BL2 connected to two ends of the inductor L2 in parallel, wherein the switch KT5-1, the switch KT5-2 and the switch KT5-3 are controlled by a time relay KT5, the switch KT6-1 and the switch KT6-2 are controlled by a time relay KT6, a part formed by the loudspeaker BL1 and the capacitor C3 is used for sounding at a high frequency, a part formed by the loudspeaker BL2 and the capacitor C4 is used for sounding at a low frequency, the time relay KT5 and the time relay KT6 are both H3Y-2.

The working process of the circuit is as follows:

when the MOS tube Q1 is conducted, the audio signal generator generates corresponding audio signals, firstly, the switch KT5-1 enables high frequency to sound, and meanwhile, the time relay KT5 starts timing, when the time set by the time relay KT5 is up, the high frequency prompt is stopped, meanwhile, the switches KT5-2 and KT5-3 are triggered to be closed, at the moment, the time relay KT6 starts timing, and at the moment, the audio signals are led into the capacitor C4 and the loudspeaker BL2 to carry out low frequency prompt; when the time that time relay KT6 set up arrived, can control switch KT6-2 closed this moment, and then realized restarting the process, and then accomplished high low frequency automatic switch-over suggestion, high frequency sound is comparatively sharp-pointed, and low frequency sound is comparatively bored, and the effectual user of reminding is arrived.

The time delay cut-off device 6 is a time relay KT7 with one end connected to the switch KT7-1 and the other end grounded, and the model of the time relay KT7 is H3Y-2.

As shown in fig. 3, in consideration of the fact that the underground lamp cannot emit light normally in the practical application process, the induction underground lamp further includes a light detection device 9 disposed in the induction underground lamp and coupled to the control device 2 to receive the control signal and output a light detection signal, a voltage comparison device 10 coupled to the light detection device 9 to receive the light detection signal and output a voltage comparison signal, a driving device 11 coupled to the voltage comparison device 10 to receive the voltage comparison signal and output a driving signal, and a remote prompting device 12 coupled to the driving device 11 to receive the driving signal and respond to the driving signal to realize remote prompting.

And further considering that whether the light detection device 9 needs to be opened or not can be adjusted by a worker according to personal needs in the practical application process, the induction underground lamp further comprises an opening and closing device 13 for opening and closing the light detection device 9.

The on-off device 13 comprises an on-off switch SB1 with one end connected to a power supply VCC, a relay KM2 with one end connected to one end of an on-off switch SB1, a switch KM2-1 with one end connected to the power supply VCC and the on-off switch SB1 and controlled by the relay KM2, and an on-off switch SB2 with one end connected to a relay KM2, wherein after the on-off switch SB1 is pressed, the relay KM2 is powered on, and the switch KM2-1 is powered on and closed; when the light detection device 9 is not needed to be used, the on-off switch SB2 is pressed, the relay KM2 is powered off, and the type of the relay KM2 is HH 52P.

The light amount detector 9 includes a resistor R1 having one end grounded and a photo-resistor RG having one end connected to the other end of the resistor R1.

The voltage comparing device 10 includes a voltage reference circuit 14 for outputting a voltage reference signal, and a voltage comparing circuit 15 coupled to the light detection device 9 for receiving the light detection signal and comparing the voltage reference signal with the light detection signal and outputting a voltage comparison signal.

The voltage reference circuit 14 includes a sliding resistor RP2 with one end grounded, a resistor R4 with one end connected to the sliding resistor RP2 and the other end connected to the power source VCC, and the voltage comparator circuit 15 is a voltage comparator a2 with a positive input end connected to the photoresistor RG and the resistor R1 and a negative input end connected to the sliding resistor RP2 and the resistor R4, and the model of the voltage comparator a2 is AD 620.

The driving device 11 is a triode Q1 with a base connected to the output end of the voltage comparator a2 and a collector connected to a power supply VCC, and a relay KM1 with one end grounded and the other end connected to the emitter of the triode Q1, wherein the model of the relay KM1 is HH52P, and the model of the triode Q1 is S9014.

The remote prompting device 12 is a WIFI alarm with one end grounded and the other end connected to a switch KM1-1 controlled by a relay KM 1.

The implementation principle of the embodiment is as follows:

when someone touches capacitive sensor T, single-channel touch chip ASC0101 exports high level at its OUT end this moment, makes MOS pipe Q1 switch on, and emitting diode D1 will shine this moment, can carry OUT high low frequency switch sound production in a certain time when luminous moreover to effective suggestion is carried OUT.

The light detection device 9 arranged at the position of the underground lamp can effectively detect the light condition of the underground lamp, the voltage comparison device 10, the driving device 11 and the remote prompting device 12 can effectively distinguish whether the underground lamp normally emits light or not, and when the underground lamp abnormally emits light, the remote prompting device 12 can prompt in time.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. An induction buried lamp, characterized in that: the human body detection device comprises a human body detection device (1) for outputting a human body detection signal, a control device (2) coupled to the human body detection device (1) for receiving the human body detection signal and outputting a control signal, and an interactive light emitting device (3) coupled to the control device (2) for receiving the control signal and responding to the control signal to realize light emission.

2. An induction inground lamp as claimed in claim 1, wherein: the induction underground lamp further comprises a sound generating device (5) which is coupled with the control device (2) to receive the control signal and responds to the control signal to realize sound generating prompt, and a time delay cutting device (6) which is coupled with the control device (2) to receive the control signal and responds to the control signal to cut off the sound generating device (5) in a time delay way.

3. An induction buried lamp as claimed in claim 2, wherein: the sound generating device (5) comprises a high-low frequency switching circuit (7) which is coupled with the control device (2) to receive the control signal and output a high-low frequency switching signal, and a sound generating circuit (8) which is coupled with the high-low frequency switching circuit (7) to receive the high-low frequency switching signal and responds to the high-low frequency switching signal to realize sound generation.

4. An induction inground lamp as claimed in claim 1, wherein: the induction underground lamp further comprises a light detection device (9) which is arranged in the induction underground lamp and is coupled to the control device (2) to receive the control signal and output a light detection signal, a voltage comparison device (10) which is coupled to the light detection device (9) to receive the light detection signal and output a voltage comparison signal, a driving device (11) which is coupled to the voltage comparison device (10) to receive the voltage comparison signal and output a driving signal, and a remote prompting device (12) which is coupled to the driving device (11) to receive the driving signal and responds to the driving signal to realize remote prompting.

5. An induction buried lamp as claimed in claim 4, wherein: the induction underground lamp also comprises an opening and closing device (13) for opening and closing the brightness detection device (9).

6. An induction buried lamp as claimed in claim 5, wherein: the voltage comparison device (10) comprises a voltage reference circuit (14) for outputting a voltage reference signal, and a voltage comparison circuit (15) coupled to the light detection device (9) for receiving the light detection signal, comparing the voltage reference signal with the light detection signal and outputting a voltage comparison signal.

7. An induction buried lamp as claimed in claim 3, wherein: the sound production circuit (8) is a loudspeaker.

8. An induction buried lamp as claimed in claim 3, wherein: the time delay cut-off device (6) is a time relay.

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